C1, Conversion and Waste

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Conversion

Waste

UCLA engineers develop new metabolic pathway for more efficient conversion of glucose into biofuels; possible 50% increase in biorefinery yield

Green Car Congress

OCTOBER 1, 2013

The wasted CO 2 leads to a significant decrease in carbon yield, the researchers observed, which results in a major impact on the overall economy of biorefinery and the carbon efficiency of cell growth. NOG can be a nice platform with different sugars for a 100 percent conversion to acetyl-CoA. —Bogorad et al.

Conversion

Conversion Engine Carbon C1

DOE awards $35M to 15 projects in ARPA-E ECOSynBio program to reduce carbon footprint of biofuel production

Green Car Congress

MAY 15, 2021

These fermentation processes create carbon as a byproduct, with some processes wasting more than 1/3 of this carbon as CO 2 emissions. The carbon-optimized conversion technology developed under this project can be integrated with multiple CO 2 sources, such as corn grain ethanol refining (near-term) and direct air capture (mid-long term).

Carbon

Carbon Production Conversion Universal

EV Driven

UCLA engineers develop new metabolic pathway for more efficient conversion of glucose into biofuels; possible 50% increase in biorefinery yield

DOE awards $35M to 15 projects in ARPA-E ECOSynBio program to reduce carbon footprint of biofuel production

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